Titan Tower TTC-NK32TZ CPU Cooler Review

Titan offers a compact and competitive priced tower cooler with 92mm fan for S775 and Athlon 64 platforms; we take it for a spin on our test setup to find out if it can silently cool an overclocked CPU.

Test Setup

in-take temperature was measured at 22?C for all tests, but temp fluctuations, different mounting and user error can account up to 1-3?C of inaccuracy in the obtained results. Please keep this in mind when looking at the results. Each heatsink was tested repeatedly; if we got questionable results the test was restarted.

Noise level of each HSF combo was recorded with SmartSensor SL4001A, the sensor was placed ~50cm away from the case. The lowest dBA reading in the test room was 32.5dBA with everything turned off!

System was stressed by running K7 CPU Burn for 30min (after Thermal Compound?s burn-in); this application pushes the temperature higher then any other application or game we?ve yet encountered. Speedfan was used to log maximum obtained temperatures.

Arctic Silver kindly send us their ?Lumi?re? thermal testing compound which has the same colour as Ceramique, but only a break in time of 30min!

Arctic Silver?s ArctiClean was used to clean off thermal paste of the CPU and heatsink between tests

Fans used for comparison

To eliminate as much variables in the tests I test each heatsink with a ?reference? fan if I can mount them. If the HSF comes with its own fan, I will compare the performance of that fan to the reference one I use.

Delta NFB0912L 92mm: 42CFM

Papst 120mm 4412 F/2GLL: 40CFM

The Case

Since I?m only using an Athlon 3200+ for my tests, it would be interesting to overclock the CPU so its maximum heat output increases and it can simulate a higher clocked Athlon 64.

I recently purchased a power meter similar to this. Doing a few basic measurements with the test system gave these results for full system wattage usage.

Athlon S754 3200+ @ 2200Mhz - 1.5v: idle: 67Watt / Load: 125Watt

Athlon S754 3200+ @ 2420Mhz - 1.7v: idle: 78Watt / Load: 165Watt

In my days of Athlon XP HSF testing an increase of 0.1v vcore would result in 4-6?C higher CPU temps, so without much surprise the temperature results in this roundup with the 1.7v Athlon 64 will be much higher.

Noise was recorded approx. 50cm away from the case at an angle, here?s a (very bad) drawing of how the dBA meter was position opposite the case and the test-room.

The CPU temperature was measured with SpeedFan and highest value recorded

Temperature of air coming into to the case at the front

PWM temperature through SpeedFan, this represent the area around the CPU socket, the power management caps which you see on a motherboard, they are there to make sure the power which is fed into the motherboard coming from the PSU is filtered and delivered the CPU and other components. Too high temperature will cause Vcore fluctuations which in turn causes system instability.